CN217119056U - Medical liquid heat preservation equipment - Google Patents

Abstract

The utility model belongs to the technical field of medical instrument, and a medical liquid insulation equipment is disclosed, including removing the base, the top fixed mounting who removes the base has flexible bracing piece, flexible bracing piece top circumference array is provided with four cartridge heaters, four the equal fixed mounting in bottom of cartridge heater has electronic on-off valve, the bottom swing joint of electronic on-off valve has pipeline heat preservation device. The utility model discloses a cooperation of cartridge heater, pipeline heat preservation device and electronic break-make valve isotructure, through the height of four cartridge heaters of flexible bracing piece adjustment to conveniently use, and the pipeline heat preservation device through cartridge heater and cartridge heater bottom, thereby played heating and heat retaining effect to the liquid in the transfusion system, thereby played the speed of freezing of the liquid in the slow transfusion system, and through electronic break-make valve, thereby avoided thermal loss and the entering of cold air.

Description

Medical liquid heat preservation equipment

Technical Field

The utility model belongs to the technical field of medical instrument, specifically a medical liquid heat preservation equipment.

Background

The plateau is usually an area with an altitude of more than 500 meters, and the plateau is characterized by relatively low terrain height difference and relatively high altitude, and the plateau element is called as a 'stage of the plateau', which is formed in long-term continuous large-area crustal lifting motion and has harsh environment, cold and large day-and-night temperature difference.

When medical personnel carry out the task of altitude accompanying guarantee, sometimes need transport patient, because the particularity in plateau district to lead to on the way of transporting, the phenomenon that the liquid in the transfusion system freezes because of the unique low temperature in plateau district, low pressure environment appears very easily, and then influences the infusion to patient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above problems, the utility model provides a medical liquid heat preservation device, which has the advantages of freeze prevention and automatic pressurization.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a medical liquid insulation equipment, is including removing the base, the top fixed mounting who removes the base has flexible bracing piece, flexible bracing piece top circumference array is provided with four cartridge heaters, four the equal fixed mounting in bottom of cartridge heater has electronic on-off valve, the bottom swing joint of electronic on-off valve has pipeline heat preservation device.

As a preferred technical scheme of the utility model, four outer sides of the heating cylinders are all fixedly provided with a pressurizing device, the pressurizing device comprises a microprocessor, a gas pipe, a pressurizing bag, an air pressure sensor, an aerating device and an exhausting device, the pressurizing bag is arranged in the heating cylinders, the microprocessor, the exhausting device, the air pressure sensor, the aerating device and the gas pipe are sequentially arranged in the pressurizing device from top to bottom, the pressurizing device is fixedly arranged on the outer sides of the four heating cylinders, the aerating device is arranged as an aerating pump, the exhausting device is arranged as a suction pump, when in use, the air pressure of the pressurizing bag is detected by the air pressure sensor, a detected air pressure signal is transmitted to the microprocessor, then the microprocessor controls the aerating device to inflate according to the condition, when the air pressure of the pressurizing bag reaches the preset pressure, stopping inflating, and controlling the air discharging device to discharge air when the air pressure is too high, so that the pressure is reduced, and the mannitol can be conveniently injected into a patient for treatment when pulmonary edema, cerebral edema and other conditions needing pressure injection occur.

As a preferred technical proposal of the utility model, the inside of the top of the telescopic supporting rod is movably provided with a movable rod, the top of the movable rod is fixedly provided with a solar panel, the bottom of the movable rod is fixedly provided with a storage battery, the inside of the upper end of the telescopic supporting rod is provided with a first movable groove, the storage battery is arranged inside the first movable groove, the bottom of the storage battery is provided with a movable block, the upper end of the telescopic supporting rod is provided with a second movable groove, the protruding end of the movable block runs through the second movable groove, the medicine is convenient to install by adjusting the length of the telescopic supporting rod, the storage battery is convenient to charge by the solar panel on the top of the movable rod, when the medicine is installed, in order to avoid the obstruction of the solar panel, the bottom of the storage battery is provided with a movable block, and then the protruding end of the second movable groove runs through the movable block, raise solar panel to conveniently install work.

As an optimal technical scheme of the utility model, four the cartridge heater all includes movable cover, couple and heating heat preservation, the inside of cartridge heater all is provided with the heating heat preservation, the top of cartridge heater all articulates there is the movable cover, the equal fixed mounting in bottom of movable cover has the couple, the inside of heating heat preservation is provided with the heating wire, when using, switches on the heating wire for the heating heat preservation generates heat, thereby makes the inside temperature of four cartridge heaters rise, and thereby has played sealed and suspended effect through movable cover and couple.

As a preferred technical proposal of the utility model, the pipeline heat preservation device comprises a lug, a double-layer heat preservation pipe, a tapping thread, a groove and a fixed block, the bottom of the electric on-off valve is movably connected with the double-layer heat preservation pipe, the bottom of the double-layer heat preservation pipe is fixedly provided with the lug, the top of the double-layer heat preservation pipe is provided with the groove, the inner part of the top of the double-layer heat preservation pipe is fixedly provided with the fixed block, the outer side of the fixed block and the inner side of the lug are both provided with the tapping thread, when the heat preservation of the infusion tube is carried out, the double-layer heat preservation pipe is connected according to the infusion length, when the connection is carried out, the lug at the bottom of the previous double-layer heat preservation pipe rotates the groove at the bottom of the next double-layer heat preservation pipe, thereby the upper double-layer heat preservation pipe and the lower double-layer heat preservation pipe are connected, thereby realizing the protection of the temperature of the infusion tube and avoiding the infusion, the transfusion tube is frozen.

As a preferred technical proposal of the utility model, the pressurizing bag is of a hollow structure, the air pressure sensor, the air charging device and the air discharging device are all fixedly connected with the pressurizing bag, the air pressure sensor, the air charging device and the exhaust device are all electrically connected with the microprocessor, the air charging device is an air charging pump, the exhaust device is an air suction pump, a sensing element of the air pressure sensor extends into the pressurizing bag, when in use, the air pressure of the pressurizing bag is detected by the air pressure sensor, and the detected air pressure signal is transmitted to the microprocessor, then the microprocessor controls the air charging device to charge air according to the situation, when the air pressure of the pressurizing bag reaches the preset pressure, stopping inflation, and controlling the air discharging device to discharge air when the air pressure is too high, so that the pressure is reduced, therefore, when pulmonary edema, cerebral edema and other conditions needing pressure injection occur, mannitol can be conveniently injected into a patient for treatment.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model discloses a cooperation of cartridge heater, pipeline heat preservation device and electronic on-off valve isotructure, when using, move through moving the base, and adjust the height of four cartridge heaters through flexible bracing piece, thereby conveniently use, and through the pipeline heat preservation device of cartridge heater and cartridge heater bottom, thereby liquid in the transfusion system has played heating and heat retaining effect, thereby has played the speed of freezing of the liquid in the slow transfusion system, and through electronic on-off valve, thereby avoid thermal loss and the entering of cold air;

the utility model discloses a pressure device, the cooperation of structures such as aerating device and baroceptor, and there is pressure device through the equal fixed mounting in the outside at four cartridge heaters, and set up aerating device into the pump, exhaust apparatus sets up to the aspirator pump, when using, detect the atmospheric pressure of pressurization bag through the baroceptor, and atmospheric pressure signal transmission to microprocessor with detecting, then microprocessor control aerating device according to the condition aerifys, when the atmospheric pressure of pressurization bag reaches preset pressure, stop to aerify, and when atmospheric pressure is too big, control exhaust apparatus gassing, make pressure reduce, thereby when pulmonary edema appears, when encephaledema etc. need be with the condition of pressurization injection, can conveniently inject mannitol to patient and treat.

Drawings

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic view of the cross-sectional structure of the present invention;

FIG. 3 is an enlarged schematic view of a portion A of FIG. 1 according to the present invention;

fig. 4 is an enlarged schematic view of a portion B of fig. 2 according to the present invention;

fig. 5 is an enlarged schematic structural diagram of a portion C of fig. 3 according to the present invention.

In the figure: 1. moving the base; 2. a telescopic support rod; 3. a heating cylinder; 32. a movable cover; 31. hooking; 33. heating the heat-insulating layer; 4. a movable rod; 41. a storage battery; 5. a solar panel; 6. a pressurizing device; 61. a microprocessor; 62. an exhaust device; 63. a pressurizing bag; 64. an air pressure sensor; 65. an inflator; 66. a gas delivery pipe; 7. a pipeline heat preservation device; 71. a bump; 72. a double-layer heat preservation pipe; 73. tapping; 74. a groove; 75. a fixed block; 8. a first movable slot; 9. a movable block; 10. a second movable groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 5, the utility model provides a medical liquid heat preservation device, including removing base 1, the top fixed mounting who removes base 1 has flexible bracing piece 2, and 2 top circumference arrays of flexible bracing piece are provided with four cartridge heaters 3, and the equal fixed mounting in bottom of four cartridge heaters 3 has electronic on-off valve, and the bottom swing joint of electronic on-off valve has pipeline heat preservation device 7.

Wherein, the outer sides of the four heating cylinders 3 are all fixedly provided with a pressurizing device 6, the pressurizing device 6 comprises a microprocessor 61, an air pipe 66, a pressurizing bag 63, an air pressure sensor 64, an inflating device 65 and an air exhausting device 62, the pressurizing bag 63 is arranged in the heating cylinder 3, the microprocessor 61, the air exhausting device 62, the air pressure sensor 64, the inflating device 65 and the air pipe 66 are sequentially arranged in the pressurizing device 6 from top to bottom, the inflating device 65 is connected with the pressurizing bag 63 through the air pipe 66, the air exhausting device 64 is connected with the pressurizing bag 63, the pressurizing device 6 is fixedly arranged on the outer sides of the four heating cylinders 3, the inflating device 65 is arranged as an inflating pump, the air exhausting device 62 is arranged as an air suction pump, when in use, the air pressure of the pressurizing bag 63 is detected through the air pressure sensor 64, the detected air pressure signal is transmitted to the microprocessor 61, then the microprocessor 61 controls the inflating device 65 to inflate according to the situation, when the air pressure of the pressurizing bag 63 reaches the preset pressure, the inflation is stopped, and when the air pressure is too high, the exhaust device 62 is controlled to deflate, so that the pressure is reduced, and therefore, when pulmonary edema, cerebral edema and other conditions needing pressurizing injection occur, mannitol can be conveniently injected into a patient for treatment.

Wherein, the inside movable mounting at the top of the telescopic supporting rod 2 is provided with a movable rod 4, the top of the movable rod 4 is fixedly provided with a solar panel 5, the bottom of the movable rod 4 is fixedly provided with a storage battery 41, the inside of the upper end of the telescopic supporting rod 2 is provided with a first movable groove 8, the storage battery 41 is arranged inside the first movable groove 8, the bottom of the storage battery 41 is provided with a movable block 9, the upper end of the telescopic supporting rod 2 is provided with a second movable groove 10, the protruding end of the movable block 9 penetrates through the second movable groove 10, the length of the telescopic supporting rod 2 is adjusted, thereby facilitating the medicine installation, and the storage battery 41 is conveniently charged through the solar panel 5 at the top of the movable rod 4, when the medicine is installed, in order to avoid the obstruction of the solar panel 5, the movable block 9 is arranged at the bottom of the storage battery 41, and then the protruding end of the second movable groove 10 is penetrated through the movable block 9, raise solar panel 5 to conveniently install work.

Wherein, four cartridge heaters 3 all include movable cover 32, couple 31 and heating heat preservation 33, the inside of cartridge heater 3 all is provided with heating heat preservation 33, the top of cartridge heater 3 all articulates there is movable cover 32, the equal fixed mounting in bottom of movable cover 32 has couple 31, the inside of heating heat preservation 33 is provided with the heating wire, when using, circular telegram the heating wire, make heating heat preservation 33 generate heat, thereby make the inside temperature of four cartridge heaters 3 rise, thereby sealed and suspended effect has been played through movable cover 32 and couple 31.

Wherein, the pipeline heat preservation device 7 comprises a convex block 71, a plurality of double-layer heat preservation pipes 72, tapping threads 73, grooves 74 and a fixed block 75, the bottom of the electric on-off valve is movably connected with the double-layer heat preservation pipes 72, the bottom of each double-layer heat preservation pipe 72 is fixedly provided with the convex block 71, the top of each double-layer heat preservation pipe 72 is provided with the groove 74, the inside of the top of each double-layer heat preservation pipe 72 is fixedly provided with the fixed block 75, the outer side of each fixed block 75 and the inner side of each convex block 71 are respectively provided with the tapping threads 73, when the infusion tube is subjected to heat preservation, the double-layer heat preservation pipes 72 are connected according to the infusion length, when the connection is carried out, the convex block 71 at the bottom of the previous double-layer heat preservation pipe 72 rotates the groove 74 at the bottom of the next double-layer heat preservation pipe 72, so that the two adjacent double-layer heat preservation pipes 72 are connected up and down, thereby realizing the protection of the temperature, and avoiding the infusion tube, the transfusion tube is frozen.

Wherein, the pressurizing bag 63 is a hollow structure, the air pressure sensor 64, the inflating device 65 and the air exhausting device 62 are all fixedly connected with the pressurizing bag 63, the air pressure sensor 64, the inflating device 65 and the air exhausting device 62 are all electrically connected with the microprocessor 61, the inflating device 65 is an inflating pump, the air exhausting device 62 is an air sucking pump, a sensing element of the air pressure sensor 64 extends into the pressurizing bag 63, when the pressurizing bag is used, the air pressure of the pressurizing bag 63 is detected by the air pressure sensor 64, the detected air pressure signal is transmitted to the microprocessor 61, then the microprocessor 61 controls the inflating device 65 to inflate the pressurizing bag 63 through the air pipe 62 according to the situation, when the air pressure of the pressurizing bag 63 reaches the preset pressure, the inflating is stopped, and when the air pressure is too large, the air exhausting device 62 is controlled to deflate, the pressure is reduced, thereby when pulmonary edema, cerebral edema and other situations needing pressurizing injection occur, can be conveniently injected with mannitol for treatment.

The utility model discloses a theory of operation and use flow:

when the infusion apparatus is used, the movable base 1 is moved, the heights of the four heating cylinders 3 are adjusted through the telescopic supporting rods 2, so that the infusion apparatus is convenient to use, the heating cylinders 3 and the pipeline heat preservation devices 7 at the bottoms of the heating cylinders 3 play a role in heating and preserving heat for liquid in the infusion apparatus, so that the freezing speed of the liquid in the infusion apparatus is slowed down, and the electric on-off valve is used for avoiding heat loss and cold air entering;

when the infusion tube is used, the electric heating wires are electrified, so that the heating heat-insulating layers 33 generate heat, the temperature inside the four heating cylinders 3 rises, the sealing and hanging effects are achieved through the movable covers 32 and the hooks 31, when the infusion tube is subjected to heat insulation, the double-layer heat-insulating tubes 72 are connected according to the infusion length, and when the infusion tube is connected, the lug 71 at the bottom of the previous double-layer heat-insulating tube 72 rotates the groove 74 at the bottom of the next double-layer heat-insulating tube 72, so that the upper double-layer heat-insulating tube 72 and the lower double-layer heat-insulating tube 72 are connected, the temperature protection of the infusion tube is achieved, and the condition that the infusion tube is frozen is avoided;

the pressurizing devices 6 are fixedly arranged on the outer sides of the four heating cylinders 3, the inflating device 65 is set as an inflating pump, the exhaust device 62 is set as an air suction pump, when the device is used, the air pressure of the pressurizing bag 63 is detected through the air pressure sensor 64, the detected air pressure signal is transmitted to the microprocessor 61, then the microprocessor 61 controls the inflating device 65 to inflate according to the situation, when the air pressure of the pressurizing bag 63 reaches the preset pressure, the inflation is stopped, and when the air pressure is too high, the exhaust device 62 is controlled to deflate, so that the pressure is reduced, and therefore when pulmonary edema, cerebral edema and other situations needing pressurizing injection occur, mannitol can be conveniently injected into a patient for treatment.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a medical liquid heat preservation equipment, includes mobile base (1), its characterized in that: the top fixed mounting who removes base (1) has flexible bracing piece (2), flexible bracing piece (2) top circumference array is provided with four cartridge heaters (3), four the equal fixed mounting in bottom of cartridge heater (3) has electronic on-off valve, the bottom swing joint of electronic on-off valve has pipeline heat preservation device (7).

2. The medical fluid warming device of claim 1, wherein: four the equal fixed mounting in the outside of heating cylinder (3) has pressure device (6), pressure device (6) are including microprocessor (61), gas-supply pipe (66), pressurization bag (63), baroceptor (64), aerating device (65) and exhaust apparatus (62), pressurization bag (63) set up the inside at heating cylinder (3), the inside top-down of pressure device (6) has set gradually microprocessor (61), exhaust apparatus (62), baroceptor (64), aerating device (65) and gas-supply pipe (66).

3. The medical fluid warming device of claim 1, wherein: the utility model discloses a solar energy storage device, including flexible bracing piece (2), the inside movable mounting at flexible bracing piece (2) top has movable rod (4), the top fixed mounting of movable rod (4) has solar panel (5), the bottom fixed mounting of movable rod (4) has battery (41), first movable groove (8) have been seted up to the inside of flexible bracing piece (2) upper end, battery (41) are placed in the inside in first movable groove (8), the bottom of battery (41) is provided with movable block (9), second movable groove (10) have been seted up to the upper end of flexible bracing piece (2), the second movable groove (10) are run through to the overhang of movable block (9).

4. The medical fluid warming device of claim 1, wherein: four cartridge heater (3) all include movable cover (32), couple (31) and heating heat preservation (33), the inside of cartridge heater (3) all is provided with heating heat preservation (33), the top of cartridge heater (3) all articulates there is movable cover (32), the equal fixed mounting in bottom of movable cover (32) has couple (31), the inside of heating heat preservation (33) is provided with the heating wire.

5. The medical fluid warming device of claim 1, wherein: pipeline heat preservation device (7) are including lug (71), double-deck insulating tube (72), tapping (73), recess (74) and fixed block (75), the bottom swing joint of electronic break-make valve has double-deck insulating tube (72), the equal fixed mounting in bottom of double-deck insulating tube (72) has lug (71), the top of double-deck insulating tube (72) is all seted up fluted (74), the inside fixed mounting at double-deck insulating tube (72) top has fixed block (75), the outside of fixed block (75) all is provided with tapping (73) with the inboard of lug (71).

6. The medical fluid warming device of claim 2, wherein: the pressurization bag (63) is of a hollow structure, the air pressure sensor (64), the inflation device (65) and the exhaust device (62) are fixedly connected with the pressurization bag (63), and the air pressure sensor (64), the inflation device (65) and the exhaust device (62) are electrically connected with the microprocessor (61).

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